Oliso Wool Felt Pressing Mat

$89.90 $69.90

Wool Multimat

Size: 35.6 x 35.6cm, 13mm thick

Made of New Zealand wool- the best in the world. The mat is ideal for quilting and sewing. The ProPress Link™ system lets you customize the size and shape of your pressing area with 4 connectors.

SUPERIOR PERFORMANCE 100% New Zealand wool, ½” (13mm) thick dense wool fibers iron both sides of the fabric simultaneously for quicker professional-level pressing.

CUSTOMIZE YOUR PRESSING AREA ProPress links lets you join any number of mats together to create your ideal pressing space. The links made of durable, high-quality, heat-resistant silicone are reusable over and over. Links fit snugly in the mat, creating a smooth pressing surface, and preventing the mat from sliding. Each mat is sold separately and includes four Links.

IDEAL FOR QUILTING AND SEWING everyday ironing. The natural wool fibers hold projects flat and in place, helping to prevent stretching while pressing. ProPress mats work great with Oliso Mini Project and Smart irons.

PRACTICAL SIZE 14” x 14” (35.6cm x 35.6cm) mat is large enough for most pressing projects and convenient placement next to your sewing machine while still compact enough for easy storage and travel. The ½” (13mm) thickness enhances your pressing projects by providing the ideal surface. Join several mats with the ProPress Link system when larger areas are needed.

QUALITY AND PERFORMANCE Oliso strives to simplify your life with tools that work for you. Designed by our team in California, we stand behind our quality and performance with a dedicated service team ready to help. 

Felt Pressing Mats are not hot iron rests.

Wool is a natural fiber that will scorch with prolonged exposure to a hot iron, this includes an auto-lift iron in the raised position. Reduce the heat or use a silicone iron rest when leaving a hot iron in one place for an extended period of time.

Felt mats are porous, allowing steam and heat to pass through, so always place mats on a suitable heat and moisture resistant surface during use.